TWM420057U - High gain multi-polarization antenna array module - Google Patents

Description

M420057 V. New description: [New technology field] Especially a high-gain multi-pole This series is about an antenna array modular antenna array module. [Prior Art]: Bu with = the rapid development of wireless communication, various products and technologies used in multi-frequency transmission = pregnancy (10) students' towel antennas are important elements for hiding transmissions and sending and receiving electricity. . Today's various products, the antenna, the design method - the use of materials are not _. Therefore, the antenna of _ _ can help to improve the characteristics of wireless transmission, and at the same time reduce the production cost of the product. ..., in general, antennas can be distinguished as omnidirectional antennas and directional antennas. Omnidirectionality Day = characteristic is the radiant energy system - all directions on the plane. A directional antenna concentrates energy on a specific range of angles. Therefore, compared to the omnidirectional φ antenna, it can have a larger antenna gain in its special correction range. In the case of cattle, the traditional base station makes _ three sets of directional antennas, each of which is responsible for covering a fan-shaped range with a horizontal angle of 12Q degrees. However, under this condition, the directional antenna of the 12-degree fan-shaped range used by the traditional base station still has its own ambiguity. That is to say, only - a small amount of energy can be transmitted in the direction of the correct turner, which will create a waste of sharpness. Same as ¥ ‘Most of the wrong money is spewed _ other places, it will interfere with other users. In addition, the secret base station adopts _ antenna single domain for vertical or horizontal extreme 'and the user's action is used to f form a 45 degree angle with the earth, so the traditional base. The antenna correction has not been taken into account by the habits of the household mobile device. As a result, the gain of the line can be reduced and the quality of the communication transmission. Secondly, commonly used antenna units include a monopole antenna (M〇n〇p〇le antenna), an inverted f-type antenna (mverted_F coffee), and a dipole antenna. The double dipole antenna of the towel can effectively transmit and emit electromagnetic waves, so it is widely used in various fields of wireless communication. At present, the polarization direction generated by the dipole antenna of the prior art is a fixed direction, and cannot be along with the product or It is difficult to apply the external conditions of the shoulder field, and the antenna is also considerably limited in practical applications. [New content] Xin's problem above is proposed as a kind of high-gain multi-polarized antenna array module, which can not only use the antenna array and the Butler matrix to generate beamforming reading, so that the beam generated by the antenna array can be set according to the setting. The specific angle yaw greatly increases the receiving quality of the antenna, and the antenna array of the multi-polarized antenna can be formed into a multi-polarized antenna array. The present invention proposes a high-gain multi-polarized antenna array module having a reflector, at least a multi-polarized antenna array rib - a Butler moment rotation, a needle multi-polarization antenna array and a Butler matrix array system respectively disposed on different sides of the reflector . , multi-polarized antenna _ packet field several dipole antennas, the multi-polarized antenna array of the towel and two feeds 埠 ' and the feed 4 is used to feed the input signal, and the dipole antenna can form the - polarization Direction $-second polarization direction. The Butler matrix array includes a number of skirt-turn and - second Butler matrices, wherein the first-butler matrix includes a complex slave and a private! m-degree phase enchantment, the first-input itch to turn out, and such The first output system is electrically connected to the multi-polarized antenna, respectively, = feed 埠. The second Butler matrix includes a plurality of second angle hybrid stealing=two angle phase changing wires, a second input channel, and a second material, and the wires are respectively electrically connected to the multi-polarized antenna array. Enter. According to the creation of the high-gain multi-polarization Tianzong Cong group, the dipole antenna includes: - a few kinds of spokes - a mixture of impurities. The radiation is reduced on the back test, and the light-emitting plate includes: a fine_unit, a plurality of first-slot holes and a plurality of second slots. The radiant material of each of the spokes is connected to the yth sub-lighting unit of the first sub-riding unit. Each of the first slots is located in the first sub-radiation unit. and the first slot = extends toward both ends of the first sub-lighting unit. The first end of each of the second slots is connected to the & hole & the second end of each of the second slots extends toward the second sub-radiation unit. The supporting column is connected between the radiant panel and the reflecting plate to support the radiant panel on the reflecting plate, wherein each of the second sub-lighting unit units of each of the 1 2 射 。 。 相互 。 。 。 。 。 。 。 。 。 。 According to the creation of the high-gain multi-polarized antenna array module, the branch column and the reflector are integrally formed. According to the high-gain multi-polarized antenna array module proposed by the present invention, the first input and the second round of the human body are electrically connected to the -cut (four), and the beam axis is changed by the switcher (four) Switch between. According to the high-gain multi-polarization antenna array module proposed by the present invention, when the signal is input to the first-Butler, the polarization direction of the electric chirp clock M420057 generated by the multi-polarization day column is 45. When the external signal is input to the second Butler moment material, the multi-polarized antenna barrier produces a polarization direction of -45. . The high-gain multi-polarized antenna array module proposed by the author uses a plurality of Butler matrices and at least an antenna array module to generate a plurality of different beam directions formed by focusing on a specific angle, which not only increases the antenna. The quality of the reception also has the advantage of being able to adjust the polarization direction of the day. The above description of the contents of this creation, and the following embodiments are used to illustrate and explain the spirit and principles of the present creation, and provide a more advanced explanation of the scope of the patent application of the present creation. The characteristics, implementation and efficacy of this creation are described in detail below with reference to the preferred embodiment. [Embodiment] Hereinafter, the detailed features and advantages of the present invention will be described in detail in the μ-face mode, which is sufficient for any skilled person to understand the technical content of the present invention and to implement the contents according to the present specification. In the case of patents and drawings, any skilled person can transfer the purpose and advantages of the company. The following examples are also based on the details of this creation, but do not limit the scope of this creation by any point of view. a clear - and refer to "1st picture" and "2nd picture", which are the combination of the multi-polarization Tianliangyun group according to the creation of the example, the combination diagram and the exploded view. The high-gain multi-polarized antenna array module has a reflector plate, and the different side faces of the reflector plate 100 respectively have at least one multi-polarized antenna array and a Butler matrix array 'the method of the high-gain multi-polarization celestial ship Discussion 0 M420057 includes a multi-polarized antenna _ depletion pool application (four) she voluntarily includes a first Butler matrix 210 and a second Butler matrix 22 〇 as a description of the present creation - embodiment. Then, the number of multi-polarized antenna arrays is not intended to limit the scope of this creation. The designer can see the specification requirements of the Wei Tian Lai group, and the number of multi-polar antenna arrays required for the self-mosquito. The multi-polarized antenna array 2A includes a plurality of lines 202, and the multi-polarized antenna array 20b is the same as the multi-polarized antenna array 20a. Therefore, it is convenient to explain that only the multi-polarized antenna array is used as the following Description. "Fig. 3" is a top view of a dipole antenna according to the present embodiment. The dipole antenna 202 has a radiant panel 22 and at least one support post 24. The radiant panel 22 includes a plurality of radiating elements 22a, 22b, 22c, 22d, a plurality of first slots 232a, 232b, 232c, 232d and a plurality of second slots 234a, 234b, 234c, 234d. Hereinafter, the light-emitting unit 22a will be described as an embodiment, and the radiation units 22b, 22c, 22d have the same structure as the radiation unit 22a, and therefore will not be described again. The radiating unit 22a includes a first sub-lighting unit 28]a and a second sub-lighting unit 282a', wherein the second sub-lighting unit 282a is connected to the first sub-lighting unit 281a' and the shapes of the two are substantially one τ font type. The first slot 232a is located in the first sub-radiation unit 281a and extends toward both ends of the first sub-radiation unit 281a. The second slot 234a is located in the second sub-radiation unit 282a, and the first end of the second slot 234a is coupled to the first slot 232a, and the second end of the second slot 234a extends toward the second sub-radiation unit 282a. The second sub-radiation unit 282a of the radiating unit 22a, the second sub-radiation unit 282b of the radiating unit 22b, the second sub-radiation unit 282c of the radiating unit 22c, and the second sub-M420057 radiating unit 282d of the radiating unit 22d are connected to each other at 23 The rails 234b, 234c, 234d are also in communication with one another. Together, and their respective second slots 24 are shown as "dipole antennas" according to "Fig. 3", the side view of the teeth is connected between the seesaw 22 and the reflector. For example, the second #24 may be, but is not limited to, connected to the first sub-radiation of the radiation unit 22b between the early brain and the anti-touch 1GG, but the shoe may be connected to the first sub-radiation unit connected to the radiation unit. Board said. The support post 24 and the reflector 100 may be _ in a singie b_) to support the radiant panel above the reflector 100 and reduce the additional manufacturing cost of the antenna structure. Fig. 5 is an exploded view of the rear view of the high gain multi-polarized antenna array module according to the present embodiment. It can be seen from Fig. 5 that the Butler matrix array (meaning the first-butler matrix 21〇 and the second Butler matrix 22〇) and the reflector can also be connected to a plurality of connecting columns 26a? 26b, 26e, 26d. The connecting posts 26a, 26b, 26c, 26d and the reflecting plate 100 can also be integrally formed. ^^ a singie body) to reduce the extra manufacturing cost of the Butler Matrix array structure. Please refer to "Figure 5" and "Figure 6" for the following description. "Figure 6" is a functional block diagram of the Butler Matrix Array according to the present creative embodiment. The first Butler matrix 210 includes a plurality of first angle mixing combiners 22112224223312243, a plurality of first angle phase converters 241a, 242a, a plurality of first input ports 251a, 252a, 253a, 254a, a plurality of first outputs蟑 261a: 262a, 263a, 264a and a jumper 27a. According to one embodiment of the present creation, the first angle mixing facers 221a, 222a, 223a, 224a may have a mixing angle of 90. a coupler of M420057, and the first angle phase converter 241a is electrically connected between the first angle hybrid couplers 221a to 23a, and the first angle phase converter 242a is electrically connected to the first angle hybrid couplers 222a, 224a. between. In addition, the jumper 27a is electrically connected between the first angle hybrid couplers 221a, 224a, and the jumper 27a is also electrically connected between the first angle hybrid couplers .222a, 223a, wherein the first angle phase The phase change angle of the converter 2414242a is 45. . The second Butler matrix 220 includes a plurality of second angle hybrid couplers ♦ 22 lb, 222b, 223b, 224b, a plurality of second angular phase converters, a plurality of second inputs 埠 251b, 252b, 253b, 254b, A plurality of second outputs 埠 261b, 262b, 263b, 264b and a jumper 27b. The second Shore Mixing Mask 221b, 222b, 223b, 224b may have a mixing angle of 9 〇. The face closer, and the phase angle of the second angle phase converters 24lb, 242b is _45. . The remaining second Butler matrix 220 is connected in the same manner as the first Butler matrix 21〇. __ where the input 埠 of the Butler matrix array (ie, the first Butler of the first Butler matrix 21 - input 埠 251^252125312543 and the second input of the second Butler matrix 22 埠 2511?, 2521}, 2531), 2541)) is placed on the bottom plate 3〇〇. Here, the first-Battler matrix 210 and the second Butler matrix 22 are disposed between the bottom plate and the reflecting plate _, and are joined to the back surface of the reflecting plate 100 by the connecting posts 26a, 26b, 26c, 26d. The output 埠 of the Butler matrix array (ie, the first output 埠 261a. 262a of the first Butler matrix 21 ,, 263a, 264a and the second output 埠 261b, 262b, 263b, 264b of the second Butler matrix 22 )) They are electrically connected to the respective signal feeds of the multi-polarized antenna array 2 (^201?). For example, the first output ports of the first-butler matrix 9 M420057 21〇 can be electrically connected to the multi-polarized antenna array 2, respectively. (^2(^, 2(^, 20 (1 signal feed 埠. The second output 埠 261b, 262b, 263c, 264d of the second Butler matrix 22 可 can be electrically connected to the multi-polarized antenna array 20\20 (ί, 201), 2 (Μ signal feed 埠. Here, multi-polarized antenna array 2〇\2〇1), 2 (^, 20〇1 are each electrically connected to the first Butler matrix 21〇 And the second Butler matrix 220 is fed into the 埠 to feed the signal output from the Butler matrix array. Please refer to FIG. 7 as a detailed diagram of the Butler matrix array according to the present creative embodiment. The first Butler matrix 210 includes a first angle hybrid coupler 221a, 222a, 223a, 224a, a first-angle phase change 241^2423 5 first-input 埠2511252^25312543 and jumper 27a. The second batler matrix 22 〇 includes second angle hybrid couplers 221b, 222b, 223b, 224b, second angular phase converters 241b, 242b The second input ports 251b, 252b, 253b, 254b and the jumper 27b. The hybrid coupler described above has a square structure design of the signal transmission line, and the jumper is an 8-shaped structure. The first angle phase converter 241〇5242a of the Le matrix 21〇 is designed by bending the signal transmission line to delay the phase of the signal by 45°, and the second of the second Butler matrix 220. The angle phase change benefits 241b, 242b are designed to make the phase of the signal a phase delay of -45 by using the signal transmission line as another bend design. The connection relationship of each component is shown in Fig. 6. For example, when the external signal is input to the first Butler matrix 21〇, the multi-polarized antenna array 20a can generate an electromagnetic field shape with a polarization direction of 45. When an external signal is input to the first Butler matrix 220, the multi-polarized antenna array :20a The M420057 can be produced with a polarization direction of -45. The electromagnetic field shape of the first Butler matrix 2i〇 and the second Butler matrix 220 are each taken as a substrate by the circuit board. The above components are arranged on the circuit board. Above the 28b, and the components can be connected by metal wires or other components capable of transmitting signals. For details, please refer to "Fig. 2". According to the embodiment of the present invention, the dipole antenna 202 can be The division is in a first polarization direction or a second polarization direction. The high-enriched polarized antenna array module includes an electrical substrate electrically connected between the reflector _ and the multi-polarized antenna array 20a, wherein the electrical substrate can be selectively disposed only in part The pole antenna is moved between the reflector and the reflector. Each of the dipole antennas 202 is connected to the signal line. Here, the dipole line 2〇2 can be connected to the electrical substrate by the signal line to generate different polarization directions. In the foregoing, the signal lines can be located on the second sub-rotation units 282aj282b, 282c, 282d of the radiating elements 22a, 22b, 22c, 22d, respectively, on the second ends of the two. For example, when the respective dipole antennas 2〇2 of the multi-polarized antenna array 2〇a are connected between the second sub-unit of the consumable unit 22a and the first side of the electrical substrate The dipole antenna 2〇2 forms a first polarization direction. As for the dipole antennas 2〇2 of the field antenna array 2〇a, the signal line is connected between the second sub-Han unit of the radiation unit 22b and the second side of the electrical substrate, The pole antenna 202 then forms a second polarization direction. For example, when an external signal is input to the first bar Heller input of the first-butler matrix 21〇 (thinking the first input 埠2sla), the polarization of the multi-polarized antenna array 2 such as the generated M420057 field shape The direction is 45. And its partial lake degree is roughly -Κ). When the first Butler input 蟑 (meaning the first input Tan 25: 2a) of the Tyler matrix 2 Κ) is input, the polarization direction of the electromagnetic field generated by the multi-polarized antenna array 20a is 45. And its yaw angle is roughly +30. When the third Butler input 埠U of the first Butler matrix 21〇, that is, the first input 埠 253a) is input, the electromagnetic easy-to-open shoulder polarization direction generated by the multi-polarized antenna array 2〇a is 45. And its yaw angle is roughly 3. When the fourth Butler wheel of the first Bartle's matrix 2 is input (meaning the first input 埠 2 ground), the polarization direction of the electromagnetic field generated by the multi-polarized antenna array is 45. And its yaw angle is roughly 10. . The 'high-gain multi-polarized antenna array wheel set according to the present creative embodiment' can cause the beam generated by the multi-polarized antenna array 2〇a to be yawed according to different angles by using the first-butler matrix 210, thereby increasing the multi-polarized antenna The quality of the reception of the array. As for the external signal input to the first Butler input 第二 of the second Butler matrix 22〇 (meaning the second input 槔 251b), the multi-polarized antenna array should generate an electromagnetic field with a polarization direction of -45. 1 its yaw The angle is roughly _1 (). When the first Butler input 第二 (meaning the second input 璋 2 汹) of the second Butler matrix 220 is input, the polarization direction of the electromagnetic field generated by the multipole 匕 antenna array j 20a is _45. ' And its yaw angle is roughly +3〇. When the third Butler input itch (meaning the second input 埠 253b) of the second Butler matrix 22〇 is input, the polarization direction of the electromagnetic field generated by the multi-polarized antenna array is -45. And its yaw angle is roughly 3. Entering the fourth Butler input 第二 of the second Butler matrix 22〇 (meaning that the second input 珲a4, the polarization antenna array produced by the column 20a has a polarization direction of _45. The yaw angle is substantially 12 M420057 10. In this case, the high-gain multi-polarized antenna array module according to the present embodiment can also be used to generate the beam basis of the multi-polarized antenna _ 2〇a by the second Butler matrix 220. Different angles of the yaw 'and thereby increase the receiving quality of the multi-polarized antenna array 2 〇 a. It should be noted that the yaw angle and the polarization direction described in this embodiment are only for the description 'do not do For the sake of this creation, those who have the usual knowledge in this book can design different yaw angles and polarization directions according to the spirit of this creation, so that the beam axis of the antenna array (B_Formic) can be used as a slave. And thereby generating a plurality of different directions for beamforming at a more angle. Secondly, according to still another preferred embodiment of the present invention, the first input port and the second input port 251b, 252b, 253b, 254b are further Electrically connected to the -_ device, and through the fine After the switch is performed, the multi-polarized antenna array 20a is switched between beamforming at different angles to achieve better antenna reception quality. The multi-polarized antenna according to the embodiment can be used according to the signal of the dipole antenna. The line and the new substrate are connected in a way to generate different polarization directions. And the multi-polarized antenna array consisting of a hard-numbered pole antenna can be made by connecting == (four) to generate a plurality of ~ directions. Therefore, according to the high-gain multi-polarized antenna array module of the present embodiment, the beam generated by the antenna can be used to achieve a robust reception quality and a high-gain multi-polarized antenna array and a flat swing. 1 is a combination diagram of a high-gain multi-polarized antenna array module 13 M420057 according to the present embodiment, and FIG. 2 is a high-gain multi-polarized antenna array module of the present embodiment. Figure θ, θ is a multi-polarized dipole antenna according to the present embodiment, and its top view; Figure 4 is a dipole antenna of the root _3, its side view; Figure 5 is the root The high-gain multi-polarized antenna array model of the present embodiment of the exploded view of the exploded view is a Butler matrix array according to the present creative embodiment, the functional block diagram, and the seventh diagram are based on the present A detailed diagram of the Butler matrix array of the authoring embodiment. [Main component symbol description] 20a, 20b, 20c, 20d Multi-polarized antenna array 22 Radiation plates 22a, 22b, 22c, 22d Radiation unit 24 Branch #柱26a, 26b, 26c , 26d connection post 27a, 27b jumper 28a, 28b circuit board 100 reflector 202 dipole antenna 210 first butler matrix 14 M420057 220 second butler matrix 22 la, 222a, 223a, 224a first angle hybrid coupler 22 lb, 222b, 223b, 224b second angle hybrid coupler 232a, 232b, 232c, 232d first slot 234a, 234b, 234c, 234d second slot 24 la, 242a first angle phase converter 24 lb, 242b Second angle phase converter 251 a, 252a, 253a, 254a first input 埠 25 lb, 252b, 253b, 254b second input 埠 26 la, 262a, 263a, 264a first output 埠 26 lb, 262b, 263b, 264b Second output 埠 281a, 281b, 281c, 281d first sub-spoke Unit 282a, 282b, 282c, 400 electrically 282d of the second sub-radiating element 300 of the base wafer 1000 multipolar high-gain antenna array module 15

Claims (1)

M420057 VI. Patent Application Range: 1. A multi-polarized antenna array module that includes a reflector; at least one multi-polarized antenna array disposed on one side of the reflector, the multi-polarized antenna array having a feed port And the multi-polarized antenna array includes a plurality of dipole antennas, wherein the feedthroughs are used to feed input signals, and the dipole antennas can form a -first polarization direction or a second polarization direction; The Butler moment P-transfer 'disposed on the reflector is different from the other side of the multi-polarized antenna array. The Butler matrix array comprises: a first Butler matrix comprising a plurality of first angular hybrid couplings. . a plurality of first-angle phase converters, a plurality of first input rods, and a plurality of first-round output ports, wherein the first output lines are electrically connected to the feed-in ports of the multi-polarized antenna array, respectively; as well as. . a second bar touch matrix comprising a plurality of second scholastic blends 2 a plurality of second angular phase shifts H, a plurality of second inputs 璋, and a second output 贿, wherein the second transport systems are respectively Electrically connected to the feed ports of the multi-polarized antenna array. 2. The highly-enhanced polarization antenna according to claim 1, wherein each of the dipole antennas comprises: a radiation plate on the reflection plate, the radiation plate comprising: a plurality of radiation units, each of the radiation units The method includes: a first sub-radiation unit; and 16 M420057 a second sub-radiation unit connected to the first sub-radiation unit; a plurality of first slotted holes, each of the first slots being located in the first sub-lighting unit And the first slot extends toward both ends of the first sub-lighting unit; and a plurality of second slots, the second slot of each of the second slots is connected to the first slot and each of the slots a second end of the three slots extends toward the second sub-lighting unit: and at least a branch column 'connects between the radiant panel and the reflector to support the radiant panel on the reflector; The second sub-spoke element of the fresh unit (10) is connected to each other. 3. The high-gain multi-polarized antenna array module according to claim 2 has an electric substrate electrically connected to the reflecting plate. And the multi-polarized antenna array, wherein the two of the radiating elements are the second The second end of the radiating unit is connected to a signal line. When the signal line is electrically connected to the first side of the electrical substrate, the dipole antenna forms the first polarization direction. When the signal line is When electrically connected to the second side of one of the electrical substrates, the dipole antennas form the second polarization direction. 4. The enhanced multi-polarized antenna array module of claim 2, wherein the support column and the reflector are integrally formed. 5. The south singular multi-polarized antenna array module according to claim 2, wherein the array of the Butler matrix and the reflector are connected by a plurality of connecting columns, and the connecting columns and the reflecting plate are One piece. The high gain multi-polarized antenna array module of claim 2, further comprising a bottom plate, wherein the first Butler matrix and the second Butler matrix are disposed between the bottom plate and the reflective plate. 7. The south gain multi-polarized antenna array module of claim 6, wherein the first input ports and the second input lines are disposed on the bottom plate. The high-gain multi-polarized antenna array module of claim 1, wherein the Butler matrix array and the reflector are connected by a plurality of connecting columns, and the connecting columns are integrated with the reflecting plate. forming. 9. The high gain multi-polarized antenna array module of claim 1, wherein an electromagnetic field generated by the multi-polarized antenna array has a polarization direction of 45 when an external signal is input to the first Butler matrix. When the external signal is input to the second Butler matrix, the polarization direction of the electromagnetic field generated by the multi-polarized antenna array is seven. . 10. The high gain multi-polarized antenna array module of claim 1, wherein the first input port and the second input system are electrically connected to a switch, and the switch is switched to make the multi-polarization The antenna array switches between beamforming at different angles. 11. The high gain multi-polarized antenna array module of claim 1, wherein the first input ports comprise a first Butler input 4, a second bus_input H, a three Butler input, and a fourth The Butler input 埠, when an external signal is input to the first Butler input 该 of the first-Butler matrix, the polarization of the electromagnetic field generated by the multi-polarized antenna array is 45. The yaw angle is roughly (10). When the second Butler input 埠 of the first Butler matrix is input, the electromagnetic field-shaped polarization yaw angle generated by the multi-polarized antenna 8 M420057 array is substantially the third Butler input of the J-Tele matrix. The polarization direction of the electromagnetic field generated by the multipole i匕 antenna array is the e yaw angle == the first, the fourth butler input of the Le matrix, the electric, shaped pole generated by the two columns The direction of the direction is - side 12. The object of the riding object as described in claim 1, the second input 埠 includes - the first Butler wheel _, the three Butler input 埠 and a fourth bat 帛 - Butler's wheel, the first bar of the second Butler matrix = in: when the external signal is input, the resulting electromagnetic field is polarized in the direction of the multi-polarized antenna array. Entering the second blocker matrix The second 16^ is _10, the polarization of the electromagnetic field generated by the _ array, the multi-polarized antenna when the bee is recognized, and the second Butler is the fifth: ? When the pendulum angle is substantially the electromagnetic field-shaped polarization of the polarized antenna array, the multiplier is -30. , lose the second bus. For, 45. When the yaw angle is large, the multi-polarization training produces! ^_The fourth Butler input 璋 The swing angle is roughly 1〇. . The polarization direction of the electric (four) shape is also biased.